Floppy Drive
Installing a Floppy in a 95
System to Floppy Drive List
Floppy Drive to Manufacturer List
95A (82077SL) Floppy Controller
Media formats
and transfer rates
Floppy Planar and Drive pinout
2.88 Floppy
to Clone Hack Progress
FIFO Mode
2.88MB Floppy
Perpendicular Mode
2.88MB Floppy Disk
Construction
Gap2 Information
2.88MB Floppy Source (1,000s of them!!!)
* Marked 2.88MB Floppy Drives
Function of Third Foppy Connector
Error 165- Is The Floppy Working?
8580 Floppy Drives in the 95?
Disable Floppy Under Setup
OS/2 MCA Foppy ADDs
OS/2 ver 3 and DMF Workaround
Removable Media Security
Secure Media Mode
EE Floppy Security Circuitry
Registers
EE Commands (Registers- Lock,
Unlock, Eject)
Issue an Enhanced Command
The floppy controller and interface connector reside on the system board.
95A Floppy Controller
It is an NEC N82077SL, 68 pin SOIC. It seems Intel bought
the chip rights from NEC.
The diskette drive controller supports:
o Four data transfer rates: - 250000 /
300000 / 500000 / 1000000 bits per second
o Programmable precompensation
o A 16-byte FIFO buffer
o PS/2 Style 3.5' 1.44/2.88MB, enhanced
2.88MB (removable-media security) 5.25" 1.2MB
o The secure media mode and the enhanced commands
Snippets In particular, the 82077SL
internally samples the IDENT and MFM pin level which is used to configure
the operating mode (PC-AT, Model 30, PS/2) on the falling edge of h/w reset.
82077AA
Removal of DMA Request(DRQ) During an Under/Overrun Condition
82077
SL Power-on Reset Problem
82077SL:
t23a TIMING CLARIFICATION
Interface
Between 82077AA/SL and the Floppy Drive
5. Sony MP-F40W - 14/15 There are dash 14 and 15 are two
new drives from Sony that handle 4 MB requirements. The MP-F40W-14 has
the DENSITY SELECT 1, DENSITY SELECT 0 on pins 2 and 33 respectively, whereas
the MP-F40W-15 has the DENSITY SELECT 1, DENSITY SELECT 0 on pins 2 and
6 respectively. As it is obvious from the table below, daisy chaining is
easily done if the 82077AA/SL is connected in the PS/2 mode (by typing
IDENT high) with either type of drive, the only difference being the location
of DENSITY SELECT 0.
Replacing
The 82077SL With The 82078 (44PIN)
Replacing
The 82077SL WITH 82078 (64PIN)
95 and 90 Floppy Controller
These systems use the Intel 82077AA floppy controller.
The EE floppy drive can be used on them, but the AA does not support the
EE functions.
9577 Bermuda Floppy Controller
These systems use either the 82077AA, 82077SL (rare),
or the NS PC8477AV floppy controller. Usually, systems with the NS controller
use "*" marked floppy drives. BUT I have found some 82077AA/* combinations,
plus what I believe to be a late Bermuda with a 82077SL floppy controller
with a * marked floppy on it...
From David Beem
Here is the listing of 82077xx FDC chips that are
able to support the 2.88 EHD drives:
FDC Location:
Processor:
FDC
Model 35SX Planar #1
Intel 386SX-20
82077AA
Model 35SX Planar #2
Intel 386SX-20
82077AA
Model 53 486SLC2 Planar IBM
486SLC2-50
82077SL-1
Model 56SLC Planar
IBM 386SLC-20
82077AA
Model 57 486SLC2 Planar IBM
486SLC2-50
82077SL
Model 77 (Bemuda) Planar #1 Upgrade Intel 486DX2-66
NS 8477-AV
Model 77 (Bemuda) Planar #2 Upgrade Cyrix 486DX2-75
82077AA
Model 77 (Lacuna) Planar Upgrade
83MHz POD
82077SL
Reply Model 80 Planar
Upgrade 83MHz POD
82077SL
Model 85 (X, K, N) Planar i486SX-33, DX2-66
82077SL (1)
Model 95 (K-L) Planar
Type 1-Type 3 complex
82077AA (2)
Model 95 (N-Q) Planar
Type 4 Complex
82077SL (3)
Adaptec 1542 SCSI board N/A
(ISA bus)
82077SL
HP NetServer 5/100 planar Pentium 100
82091AA
1 Ed.
All models support the 3.5" Electronic Eject floppy drive. (and 2.88!!)
2 Ed.
Known to support 2.88 Note: some real early 8595s do not support the 2.88MB
floppy
3 Ed.
All N-Q support the EE floppy (and 2.88!!)
One pattern seems to emerge from the PS/2 planars:
the "souped-up" or second-gen planars have the 82077SL FDC chips. A couple
of surprises though. I did find two other FDC chips on my equipment. The
first on Bermuda planar #1 is a National Semiconductor 8477AV-2 chip *without*
the "(C) NEC 1979", but with "(C) NSC 1991". Probably a 82077AA replacement
that is reverse enginered enough to avoid having to use the NEC copyright.
That system is
unchanged from the way I bought it, with an "*" 2.88 drive. The spare
2.88 I got on eBay I am unsure of the original model is a non-"*" drive.
There is a smaller surface mount Intel 82091AA in
my HP NetServer that does bear the "(C) NEC'79" & also "(C) Intel '86
'93". Just a guess again about being a replacement for the 82077AA with
the end of the part number. All the Intel 82077AA and 82077SL chips I have
otherwise have "(C) NEC 1979" & "(C) Intel '86 '91" of course. Other
clone motherboards and adapter cards I have don't look like they have a
stand-alone FDC chip. Most support the EHD drives in the BIOS, so it has
to be a variant of the 82077xx somehow (Even the enhanced NEC 72065B doesn't
support 2.88 drives.).
FDC chips are supposed to give which level they
are by a "ver" command given to the chip. By my reference all flavors of
the 82077 return the same value. I have tried a routine for the FDC ver
command that so far has *not* worked. The PS/2 35SX and 53 486SLC2 planars
both give a return value for a standard FDC that doesn't support 2.88 drives,
then make the computer unable
to read the drive! Here is the (of all things, BASIC) routine anyway
& I am going to keep trying to get it to work.
OLDVAL = INP(&H3F5)
OUT &H3F5, &H10
FDCVER = INP(&H3F5)
FDC = ""
IF FDCVER = &H80 THEN FDC = "NEC 765 / Intel 8272
or compatible FDC, no 2.88 support"
IF FDCVER = &H81 THEN FDC = "Intel 82077xx or compatible FDC, 2.88
support"
IF FDCVER = &H90 THEN FDC = "NEC 72065B or compatible FDC, no 2.88
support"
IF FDC = "" THEN FDC = "Unknown FDC returning value " + HEX$(FDCVER)
+ "h"
PRINT FDC
OUT &H3F5, OLDVAL
System to Floppy
Drive List
This list does not mean that you cannot use a later drive
on an older system. That is determined by the BIOS of the system. I do
not know the limits of all these models.
EE = Electronic Eject
8535/8540 Floppy Drives
1.44 85F0050
2.88 64F4148
2.88 92F0132 (EE) Do these have 82077SL?
8550 Floppy Drives
1.44 64F0207
8555SX Floppy Drives
1.44 64F0162
8556/8557 Floppy Drives
1.44 85F0050
2.88 64F4148
2.88 92F0132
8560, 8565, 8580 Floppy Drives
1.44 64F0162 (Pin Conn. LED below slot)
1.44 72X8523 (Edge Conn. LED above slot)
8570 Floppy Drives
1.44 64F0207
8570/8573 (P70/P75) Floppy Drives
1.44 38F5936
1.44 64F0162 (Not listed, but will also fit, and is electrically compatible.)
8590 Floppy Drives
1.44 64F0162
2.88 64F0204
2.88 64F4148 Not listed, but useable. See Warning
below!
2.88 92F0132 (EE) Not listed. Does not have a 82077SL Floppy Ctrl.
8595/9585/9595/9595A Floppy Drives
1.44 64F0162
2.88 64F0204
2.88 64F4148 Not listed, but useable. See Warning
below!
9556/9576 and 9557/9577 and i/s
1.44 85F0050
2.88 64F4148
2.88 92F0132 (EE) Bermuda 56/57 planars lack 82077SL. Does not support
EE functions.
Server 500
2.88 82G1888
Floppy
FRU to Manufacturer List
This list is NOT complete. Please remember that an FRU
can refer to many similar drives.
1.2MB Floppy FRU to Manufacturer List
64F4102 (Electronic Eject)
Canon MD5501A
1.44MB Floppy FRU vs. Manufacturer
64F0162 (Pin Conn. LED below slot)
Mitsubishi MF355C-599MQ4
ALPS DFP723D30B
2.88MB FRU vs. Manufacturer
64F0204
Mitsubishi MF365C-799MA
64F4148
Mitsubishi MF356C-799MS
Mitsubishi MF356F-899MF Asterix
Marked!
54G1679
ALPS B12HP004113 Possibly Japanese models only (Thanks,
Sandy!)
82F1888
Mitsubishi MF356F-815MB (Uses clone-like short floppy
eject button)
2.88 92F0132 (Electronic Eject)
Sony MP-F40W-07 (also marked MFD-40W-05)
64F0206 vs. 64F4148
From Peter
These have no grey plastic sled undersides but the metal
mounting plate with integrated side rails. I think that's the major difference
between 64F0206 (Peter, don't you mean
64F0204?) and 64F4148 .. if you look into EPRM you will find that all -4148s
are for 35/40, 56/57 and 76/77 - while the -0206 is for the Mod. 85/90/95.
Mounting Hardware
Model 85/90/95 Floppy Drive Slide
64F0156
33F5613
Mechanics of 2.88
vs 1.44
This was derived from Intel
82077SL for Super Dense Floppies . The artwork is from this intel document,
I just cleaned them up a bit.
PERPENDICULAR RECORDING
MODE
Toshiba has taken the 2 MB floppy and doubled the storage
capacity by doubling the number of bits per track. Toshiba achieved this
by an innovative magnetic recording mode, called the vertical or the perpendicular
recording mode. This mode utilizes magnetization perpendicular to the recording
medium plane. This is in contrast to the current mode of longitudinal recording
which uses the magnetization parallel to the recording plane. By making
the bits stand vertical as opposed to on their side, recording density
is effectively doubled, Figure 1. The new perpendicular mode of recording
not only produces sharp magnetization transitions necessary at higher recording
densities, but is also more stable.
2.88MB
Floppy Construction
The 4 MB disks utilize barium ferrite coated substrates
to achieve perpendicular mode of magnetization. Current disks use cobalt
iron oxide (Co-g-Fe 2 O 3 ) coating for longitudinal recording. The barium
ferrite ensures good head to medium contact, stable output and durability
in terms of long use. High coercivity is required to attain high recording
density for a longitudinal recording medium (coercivity specification of
a disk refers to the magnetic field strength required to make an accurate
record on the disk). A conventional head could not be used in this case;
however, the barium ferrite disk has low coercivity and the conventional
ferrite head can be used. The new combination heads include
a pre-erase mechanism, i.e., the ferrite ring heads containing erase elements
followed by the read/write head. These erase elements have deep overwrite
penetration and ensure complete erasure for writing new data. The distance
between the erase elements and the read/write head is about 200mm. This
distance is important from the floppy disk controller point of view and
will be discussed in later sections.
Gap2 Differences
The implementation of 4 MB drives requires understanding
the Gap2 (see Figures 2a and 2b) and VCO timing requirements unique to
these drives. These new requirements are dictated by the design of the
``combination head'' in these drives. Rewriting of disks in the 4 MB drives
requires a pre-erase gap to erase the magnetic flux on the disk preceding
the writing by the read/write gap. The read/write gap in the 4 MB drive
does not have sufficient penetration (as shown in Figure 4a) to overwrite
the existing data.
In the conventional drives, the read/write gap had sufficient
depth and could effectively overwrite the older data as depicted in Figure
4b. It must be noted that it is necessary to write the conventional 2 MB
media in the 4 MB drive at 500 Kbps perpendicular mode. This ensures proper
erasure of existing data and reliable write of the new data. The pre-erase
gap in the 4 MB floppy drives is activated only during format and write
commands. Both the pre erase gap and read/write gap are activated at the
same time.
As shown in Figure 4a, the pre-erase gap precedes the
read/write gap by 200mm. This distance translated to bytes is about 38
bytes at a data rate of 1 Mbps and 19 bytes at 500 Kbps. Whenever the read/write
gap is enabled by the Write Gate signal the pre-erase gap is activated
at the same time.
2.88MB Floppy
source
There is a outfit called WSG
Group (site is under heavy construction) that is a high volume diskette
supplier. They currently have over 600,000 finished, ready to go
diskettes, 2DD; 2HD; and 2ED., with a back-up of raw materials of
over 2 Million diskettes awaiting production...
They have in-stock the following:
New--Duplicator Grade ED 3.5 diskettes... 60,000 +
Recycled--ED Diskettes---3M, Maxell, Fuji brands........80,000
+..
All of diskettes are pre-certified and formatted 100%. They offer
a lifetime guaranteee..
Prices:
The ED Diskettes are priced as follows:
10pk w/labels IBM/Fmt
$ 7.00
25pk w/labels IBM/Fmt
$12.00
50pk w/labels IBM/Fmt
$ 22.00
50pk bulk bag IBM/Fmt
$ 20.00
To order from single pack to volume quantities, email John
Schattin The listed prices DO NOT include shipping. But how heavy
is a box of floppies anyways?
Resistor Network by 95A Floppy Controller
Bourns 4816P-002 -103 (bussed 10k ohm) Spec sheet HERE.
* Marked 2.88MB
Floppy Drives
I just noticed that the 2.88 floppy drive in one of my
PS/2 machines has an asterisk (*) printed on the top side of the blue eject
button. Anybody has a clue as to what that might indicate? Is it just there
for looks?
From Peter
The drives with the asterisk are those for 35/40, 56/57
and 76/77 - but *not* for 85/90/95. Should be a 64F4148, while the "others"
use a 64F0204. They differ slightly in the pinout and can damage
the planar on earlier Mod. 90 / 95. (Ed.
I'm using an asterisk 2.88 on my 9590. Note
that this is a later planar!)
Hi Al !
>9595 floppy is FRU 64F0204. Floppy I have that is mounted to the sled
is FRU 64F4148. Can I use this floppy on my 9595/8595 without fear?
That 64F4148 is the 35/40, 56/57, 76/77 FDD. If you really
like your 95 you *do not* try it in there. A team mate once did it ...
and it took us some days to solder in a new FDD-controller ... (main problem
was to find one at first)
I cannot figure out *exactly* what caused the mess, but
it has to do with the "security features" available on the 95 - and the
corresponding pins on the 56 - 77 being not present and set to GND. For
the older 8595 IBM published a warning, that use of the inappropriate FDD
could permanently damage the sysboard.
From Us, The god-Emperor of Microchannel
(The royal plural)
I whipped out my asterix marked FRU 64F4148. It's a Mitsubishi
MF356F-899MF. I just pulled my stock 2.88 from my Bermuda planar 9577-
it is a 64F4148 as well, BUT the Mitsubishi model is MF356C-799MF. First
postulation of the "Law of the Asterix" (you heard it here first, folks!)
is that the MF356F is the model that is incompatible with early 90s/95s.
As noted above, I have used the " * " floppy on a 9590 with
no unusual results. I figure that there must be a more primitive floppy
controller used on the 35/40 etc. systems. I do not have one of these to
check. Anyone with the answer, please tell
me!
Visual Differences Between M356C and M356F
From Peter
BTW: the most obvious difference between Mitsu MF356C-799
and -899 is that -799 has a longer upper cover and the connector on the
left side (looking at the rear), while the -899 has a shorter upper cover
and the connector on the rear right side.
So they differ a lot through the mechanism (different
position of the head actuator stepper motor). For the electronics part
- I can't say.
Third Floppy
Connector Purpose
> I noticed that the diskette drive connects to the motherboard using
some sort of strange connector. It appears to be about 44 pins or
so (compared to the SCSI connector), and the ribbon cable has *3* plugs
coming off it.
I never heard of anyone putting 3 diskette drives in a
machine (let alone a PS/2), and diskette drives use 30 (?) pins.
So what are the extra pins and connector for?
From Peter
The Mod. 56 / 57 / 76 / 77 / 85 / 90 / 95 use a somewhat
different FDD-connector on the planar. They have the Type-3 FDD-interface,
which also supports 2.88MB drives ("Media-Sense Drives"). The third connector
is for a very odd ITBU Internal Tape Backup Unit, which was a slightly
modified IRWIN 120MB tape. The machine supports only 2 FDDs - as usual.
Ed. Configuring
The 82077 For Tape Drive Mode
The FDD-plugs are 34-pins (2 x 17), only the planar connector
is a bit strange 44-pins. This type of interface contains also lines for
security control, i.e. in connection with the "Electronic Eject 2.88MB
FDD", which can be locked and password protected.
Tried to find a pinout of the connector but haven't found
any at the moment ...
System Reports 165-
But Is the Floppy Working?
From Tim Clarke
>b) the floppy controller/drive/cable is suspect and needs looking
at. However, one would have expected a 601 error is things were really
bad.
Peter Responds-
Not always. A disfuntional FDD may as well cause a 165.
"It is configured - but does not respond". If the heads stuck, do not pass
Track-00 tests or have RDATA stuck high or such you will surely get a 600-series
error. But if the drive has a "DC leak" and simply appears as absent it
is judged as "device missing but still present in the configuration".
8580 34 Pin
Floppy Drives
From Fred Spencer
These pin style diskette drives can be sub-divided into
two sub-groups. The original model 8580 drives are identified by the P/N
90X6766. I have seen these drives labeled as manufactured by Mitsubishi,
Alps Electric and YE Data. Later models were produced for the 8595 and
they are identified by the P/N 72X6112 or 1619618 and also sometimes accompanied
by the FRU # 64F0162 , which is also the FRU # reported in the HMM (October
1994) for both the 8580 and the 8595. HOWEVER, I have discovered that although
the 8595 drives (FRU #64F0162) will work on the 8580, the 8580 drives (P/N
90X6766) will NOT work on the 8595!!
The drives with FRU # 64F0162 have also been labeled as manufactured by
Mitsubishi, Alps Electric and YE Data.
Disabling
Floppy under Setup
Even if you use the selectable boot and remove the 1.44,
A: drive from the boot sequence, there is a "safety" device that always
looks at the A: drive for a Reference Diskette. If there is a Reference
Diskette in the drive it will override "selectable boot"
OS/2 Floppy
Devices
After the installation of OS/2 Warp and OS/2 Warp Fullpack,
CONFIG.SYS file contains two diskette-driver statements: IBM1FLPY.ADD and
IBM2FLPY.ADD. Only one of the drivers is loaded; the other just takes up
disk space. On MCA machines, you need IBM2FLPY.ADD. You may delete IBM1FLPY.ADD
NOTES: HERE
* IBM1FLPY.ADD with /MCA works on the IBM PS/2 Micro Channel
systems.
* If installation is from DMF diskettes, use IBM1FLPY.ADD /MCA for
PS/2 MCA systems.
OS/2 Warp with WIN-OS/2
V300
Microsoft has confirmed they have changed thier compression
utility for windows products now shipping. The type of compression is not
recognized by OS/2 3.X on some older PS/2's. For example, some model 80,
70 and 65 machines.A programming error was found but will not be corrected.
It is a permanent restriction..
Local Fix
1. In config.sys
rem basedev=ibm2flpy.add
and use
basedev=ibm1flpy.add /mca
2. If above does not work then use following instead,
BASEDEV=IBM1FLPY.ADD /MCA /A:0
/U:0 /F:1.44MB /CL:AT
Media formats supported
MEDIA
SIZE
|
CAPACITY
|
SECTORS
PER TRACK
|
NO. OF
TRACKS |
DATA RATE
(KBPS)
|
UNFORMATTED |
FORMATTED |
3.5 in |
1.0MB
|
720KB
|
9
|
80
|
250
|
3.5 in |
2.0MB
|
1.44MB
|
18
|
80
|
500
|
3.5 in |
4.0MB
|
2.88MB
|
36
|
80
|
1000
|
5.25 in |
0.5MB
|
360KB
|
9
|
40
|
300/250
|
5.25 in |
1.6MB
|
1.20MB
|
15
|
80
|
500
|
Floppy Cable Pinout
The diskette drive cable converts a 2- by 22-pin connector
on the system board into three 2- by 17-pin connectors for attaching internal
diskette drives. The cables pass control and data signals between the diskette
drive controller on the system board and the drives. They also provide
the power to each drive.
Note The 3.5-inch drives are required
to support media-sensing.
Floppy Planar
and Drive Pinouts
System board 44 pin connector pinout
(95A and Lacuna Planars)
Pin
|
Signal
|
Pin
|
Signal
|
1
|
-2nd drive installed
|
23
|
Ground
|
2
|
Data rate select 1
|
24
|
-Write enable
|
3
|
+5 V dc
|
25
|
Ground
|
4
|
Drive type ID 1/Drive status 1
|
26
|
-Track0
|
5
|
Ground
|
27
|
Media type 0/Drive status 2
|
6
|
+12 V dc
|
28
|
-Write protect
|
7
|
Ground
|
29
|
Ground
|
8
|
-Index
|
30
|
-Read data
|
9
|
Drive Type 0/Drive status 0
|
31
|
Ground
|
10
|
Reserved
|
32
|
-Head 1 select
|
11
|
Ground
|
33
|
Data rate select 0
|
12
|
-Drive select 0
|
34
|
Diskette change
|
13
|
Ground
|
35
|
Drive select 1
|
14
|
-Security command 0
|
36
|
Ground
|
15
|
Ground
|
37
|
-Security command 1
|
16
|
-Motor enable 0
|
38
|
Ground
|
17
|
Media type 1/Drive status 3
|
39
|
-Motor enable1
|
18
|
-Direction in
|
40
|
-Drive select 2
|
19
|
Ground
|
41
|
Ground
|
20
|
-Step
|
42
|
-Security command 2
|
21
|
Ground
|
43
|
Ground
|
22
|
-Write data
|
44
|
-Motor enable 2
|
34-Pin Header Interface
34-Pin Header (Non-media sense)
|
34-Pin Header (Media Sense)
|
Pin
|
Signal
|
Pin
|
Signal
|
Pin
|
Signal
|
Pin
|
Signal
|
1
|
Ground
|
2
|
-HD select
|
1
|
Ground
|
2
|
Data rate select
|
3
|
+5v DC
|
4
|
Drive Type
ID 1
|
3
|
+5v DC
|
4
|
Drive type ID 1/ Drive Status1
|
5
|
Ground
|
6
|
+12v DC
|
5
|
Ground
|
6
|
+12v DC
|
7
|
Ground
|
8
|
-Index
|
7
|
Ground
|
8
|
-Index |
9
|
Ground
|
10
|
Reserved
|
9
|
Drive type ID 0
|
10
|
Reserved
|
11
|
Ground
|
12
|
-Drive select
|
11
|
Ground
|
12
|
-Drive select |
13
|
Ground
|
14
|
Reserved
|
13
|
Ground
|
14
|
-Security Command
|
15
|
Ground
|
16
|
-Motor enable
|
15
|
Ground
|
16
|
-Motor enable
|
17
|
Ground
|
18
|
-Direction in
|
17
|
Media type 1/ Drive status 3
|
18
|
-Directionin
|
19
|
Ground
|
20
|
-Step
|
19
|
Ground
|
20
|
-Step |
21
|
Ground
|
22
|
-Write data
|
21
|
Ground
|
22
|
-Write data
|
23
|
Ground
|
24
|
Write enable
|
23
|
Ground
|
24
|
-Write enable
|
25
|
Ground
|
26
|
-Track 0
|
25
|
Ground
|
26
|
-Track 0
|
27
|
Ground
|
28
|
-Write protect
|
27
|
Media type ID 0/ Drive status 2
|
28
|
-Write protect
|
29
|
Ground
|
30
|
-Read data
|
29
|
Ground
|
30
|
-Read data
|
31
|
Ground
|
32
|
-Head 1 Select
|
31
|
Ground
|
32
|
-Head 1 select
|
33
|
Ground
|
34
|
-Diskette change
|
33
|
Data rate select
|
34
|
-Diskette change
|
2.88 Floppy
to Clone Hack
Just when you thought it couldn't be done... This is not
a 100% reliable way to hack the 2.88, BUT it shows that a strong possibility
exists.
From Sören Hedlund
Since Febr I`ve tested with Sony MP-F40W-03 - and
still working on these machines, so I dont beleive there is a reliability
problem. Yes, 1.44 disk works fine, but not 720 - you loose about 5% when
formatting. However, I also had to make a circuit to make these Sony MP-F40W-03
to work properly with all three formats.
Tested MB with IBM 2.88:
Tyan S1572 ATX - SMC fdc37c669qf
p
Aopen AX5T
- SMC fdc37c932apm
QDI TITANIUM 1 - NS9724ax pc87336vlj
Asus PVI-486SP3 - UMC um8669f
Epox MVP3G5 -
Winbond W83877TF
(Hot Shuttle Hot-433 - UMC um8663af -- No 2.88 !)
(Compaq PRESARIO - not in bios - No 2.88 !)
So if BIOS support 2.88 it does not mean it will work, the I/O
- chip must support it as well.
From Joseph Realmuto Jr
The first is a 386-40 with a SIDE4 HP
multi-IO card(2.88MB capable floppy controller). Since this machine does
not have built-in 2.88MB support I had to use a TSR which updates the computer's
bios. The floppy controller on the card is capable of 1 Mb/sec data
rate. I
connected pins 34, 32, 30, 28, 26, 24, 22, 20, 18, 16, 12, 8, and 2
on the P/S2 floppy to the corresponding pins on the controller. I
left pins 4, 6, 10, and 14 on the floppy unconnected. Pin 3 of the
floppy was connected to +5V and pin 11 to ground. The floppy is a
Sony MP-F40W-03 connected as the B drive(the A drive is a standard 1.44
MB). The floppy reads, writes, and formats 2.88MB media. I can also
format 1.44MB media to 2.88MB without drilling an extra hole in it.
In fact, all media is automatically formatted at the drive's native capacity
unless forced with the /F switch. I was not able to get a Mitsubishi
MF356F-899MF drive to work on this machine (pins 26 and 34 seemed to oscillate,
and the computer said there was a seek error).
The second is a Packard Bell Pentium
machine with an Intel Triton chipset and an on- board 2.88MB capable floppy
controller. I used the above Mitsubishi floppy(again as the B drive)
and this time simply used an edge card adaptor which connects only the
top (even-numbered) pins,
and pin 1(ground). I added +5V on pin 3 by soldering a wire from
one of the hard drive power plugs. Again, this floppy works just
as well as the one on the 386 machine. It also seems to automatically
format at its native capacity regardless of which meda is actually in the
drive
unless forced with the /F switch.
It seems that pins 4, 10, and 14 can be left
either connected or unconnected(I recommend leaving unconnected).
Pin 6 should be either connected to pin 6 on the controller (which is an
N/C on clone controllers) or left unconnected. It should never be
connected to +12V even though this is in the pinout for the P/S2 floppy
for two reasons: 1)+12V is not used at all by the floppy drive
2)On some (Sony MP-F40W-15) pin 6 is DENSITY SELECT 0 and putting +12V
on a 5V logic line can fry the drive, controller, and possibly even the
motherboard.
As a last note, the 1.44MB media seems to
work well at 2.88MB. It formats error-free and seems to hold data
with no problem. I am doing some long-term testing to see if it will
retain data. At this time I do not recommend putting anything important
on these media. Please e-mail
me if you know of anybody who has tested this long term.
From David Beem
As I am building up from the basics I am not having
too much trouble so far. Having learned not to assume on my or anyone's
theories I am slowly gaining information to see if I can pull this off.
I pulled out my Model 35SX, disconnected the 1.44M & connected the
spare (non-"*") 2.88 drive. After the expected 16x error I have it configure
itself & I am up and running with a 2.88Mb A: drive on a 386SX-20 computer.
Cool. Even like the guy said on your page that he was able to format a
standard HD disk as EHD with no complaints. Mine differed in that I had
to tell it with the /F:2.88 switch, otherwise it formatted it as 1.44Mb
(that was expected, but not *assumed* on my part).
I am using some pretty cheap bulk floppies too.
I don't know how long the information will last, but it is good to know
I can test the EHD media without having to find the exact diskette out
there. The Model 35SX uses a 82077 controller as well. As luck would have
it I also have an ISA Adaptec 1542 SCSI board with an onboard 82077 floppy
controller too. I can cross-check the IBM planars to it too see the pinout
changes.
Sony Board
With the 1.44Mb PS/2 floppy drives IBM moved one
ground and one unused pin to put the 5 & 12VDC power on the 34-pin
connector. By my references they seem to have inverted a half-dozen control
signals too, but left them in the same relative position on the connector.
Modifying the Sony board with 3 circuit trace cuts and 3 jumpers to account
for the power connections at least allows the clone to power up. The Motor
Enable signal (one of the ones on the "twist" of the cable) is not inverted,
so it spins the drive up when a read from the floppy is given. The stepper
moter doesn't move though because that is one of the inverted signals.
I am going to see which buffer chip is used to invert
the signals between the Adaptec board and the IBM planars. There is probably
a riser with the correct buffer chip(s) I can assemble to do the task with
a little work. At least at the drive end the connector is pretty much the
same. What
I have seen is that at the IBM planar end the Model 35, 40, & 53
have a 40-pin connector and the Model 56, 57, 76, & 77 have a 44-pin
connector. I will figure out the pinouts for those too.
FIFO Mode
The diskette drive controller uses
a FIFO buffer to enhance DMA transfer operations. The FIFO buffer
is used in the data transfer phase only, and its operation is transparent
to programs.
Removable Media
Security
The diskette drive controller in
this system supports the optional 2.88MB enhanced diskette drive, which
has a media-security feature. This diskette drive supports Lock, Unlock,
and Eject commands; the Lock command inhibits diskettes from being removed
or inserted. Additionally, if the privileged-access password is set and
the diskette drive is in the boot path, the drive is automatically locked.
FRUs I have seen for the 2.88MB enhanced diskette
drive 92F0132, 92F0129, and I saw 82G1888 mentioned as well.
Secure Media Mode
The secure media mode allows the
diskette drive to receive enhanced commands. These commands provide a means
of controlling access to the media in the diskette drives. Through
these commands, programs can eject a diskette or disable the mechanism,
which inhibits media from being removed or inserted.
To determine whether the mode and commands are
supported for a specific drive:
1. With the enhanced-command bit set to
1, test the state of the drive type (1,0) signals by reading the Drive
Status register.
Note For
info on enhanced-command bit, refer to System Control Port C
(Hex 007C).
2.
With the enhanced-command bit set to 0, retest the state of the signals.
If the signals change to a
binary 11, the mode and commands are supported for that drive.
2.88MB Electronic Eject Floppy
An optional 2.88 MB diskette drive with security features
is available on some IBM PC Server
systems. The diskette drive is a 3.5-inch, one-inch high drive
with media sense capability for the
standard diskette capacities of 720 KB, 1.44 MB, and 2.88 MB.
It can read and write data up to a formatted capacity of 2.88 MB, while
maintaining read and write capability with 720 KB and 1.44 MB diskette
drives.
A control signal has been added to the diskette interface
that supports LOCK, UNLOCK, and EJECT commands issued by the operating
system. If the privileged-access password is not set, the diskette
is unlocked during POST. If the password is set, the boot process
does not unlock the diskette drive unless it is the designated IPL source.
an operating system utility. For SCSI devices, there is a proposed
standard UNLOCK command. In this case, the operating system will
control the LOCK command if the privileged-access password is set.
Access to the unlocking function with specific user authorization can be
controlled by secured system software.
In the event of power loss, the system retains its state
(secured or unsecured) independent of the state of the battery. A
diskette can be inserted in the drive, but it cannot be removed if the
power is off. When the drive is turned on and locked, the media cannot
be inserted or removed.
Enhanced
2.88MB Floppy Security Circuitry
>1. Do all floppy controller chips have the ability
to pulse the leading edge of the of the security cmd signal?
No. Only the later machines
support the security functions. It has been offered for the 9595 and 9585
at least. The electronic ejected 2.88MB drive comes in two "flavours":
92F0129 for all 9585 and 9595A, 92F0132 for 35/40,
56/57 (all), 76/77 (all)
For the later group I can tell,
that the 35/40 and 8556/8557 have no security features integrated, most
likely the 9556/9557 and "Bermuda" 9576/9577 lack the feature too. The
FDD interface on these machines is a bit different from those on the "Servers".
However: the Server 77i had these security features mentioned in early
flyers. So it appears as if the "Lacuna" machines *have* the appropriate
additional controller logic. (Ed.If
it uses the 82077SL FD controller, it has the extra circuitry that supports
EE)
>2. Is this a hardware function of the controller?
Yes. But requires BIOS support.
>3. Can this be controlled by software (thru
BIOS) on any controller?
There was
a tool I cannot recall the name from, which could "lock" the EE-FDD function.
You could neither insert a Floppy when it is empty, nor pull one out if
there is one in the drive. I think they use a logic gate programmed on
the controller to stop the motorized eject / load function.
Tim Clarke
Hi Louis,
I think what the announcement
(and Peter et al.) talked about was software to *cause* the floppy to eject
*not* prevent/disable the feature, although I won't swear to this. I would
think the physical switch is your only option for that. I have the
'electronic eject' 5.25" slimline floppy in one of my 95s and none of the
PC-DOS 7 DRVLOCK /on, DRVLOCK /off or EJECT utilities accept it (B:) as
a supported drive. And, having thought about it ***there ain't no signal
lines to control this on the floppy interface***. So, perhaps you should
get a microswitch and patch that into the circuit, then mount the microswitch
somewhere devious. Or, even sneakier, figure out if any of the drive select
2/3 or motor enable 2/3 signals are actually passed through the ribbon
but not connected on the floppy drive's PCB circuitry and use one as 'gating
control' signal for the eject signal.
>The *electronic* eject drive is like the standard
push button drive. SONY made both of them. The EE drive allows
you to lock the floppy disk in the drive by flipping the eject button disable
switch on the side of the drive. Unfortantly the program to software eject
the disk via the OS is missing in action ...
The DISKETTE.DGS diagnostics
"overlay" tests the "security features" of the electronic diskette drives
when possible. A bit of reverse engineering might reveal what is needed
for recreation of these utilities. However, doesn't PC-DOS v7/2000 have
the DRVLOCK and EJECT commands? More fodder for the dedicated hacker.
Peter
It has - but it fails with the EE-FDD
as far as I can tell. At least when using it in a Lacuna. As far as I can
tell they have been intended for CD-ROMs and MODs. DRVLOCK de-activates
the eject button and EJECT forces a media ject on them. *That* is known
to work under PC-DOS 7.0 with a CD-ROM installed ... I use EJECT recently
on my last PC-DOS survivor.
From Ernst Fueloep
With OS/2 you can use the security
features for the enhanced 2.88 diskette drive from the diskette icon in
the drives folder. Just press the right mouse button and you will get options
for "Lock disk", "Eject disk" and "Unlock disk".
Make sure the security
switch on the diskette drive is set to 1. You can find this switch on the
right side of the drive.
Electronic Eject
Commands
Lock Drive
This command causes the drive to inhibit the loading and removal of diskettes.
If a diskette is present when the command is issued, the drive will not
eject the diskette. If a diskette is not present, the drive inhibits
the loading of a diskette. (Depending on the characteristics of the drive,
it may load the diskette and immediately try to eject it).
Note Allow
500 mS after an Eject Media command before issuing Lock Drive command.
Unlock Drive This
command enables the load-and-eject mechanism, which allows diskettes to
be removed from and inserted into the selected drive.
Eject Media This
command is the same as pressing the eject button on the front of
the drive; it causes the drive to eject a diskette. This command is ignored
if the drive is locked.
To issue an
enhanced command:
The command to be performed is determined by
the value in the data-rate-select bits (in the Data Rate Control register)
at the positive-going edge of the -security cmd signal.
1. Select the drive and save the state
of the data-rate-select bits.
2. Ensure that the System Control Port
C is available (bit 7 will be 0).
3. Set the enhanced-command bit to 0 (bit
0 of the System Control Port C).
4. Set the data-rate-select bits to the
desired command.
5. Set the enhanced-command bit to 1.
6. Restore the data-rate-select bits to
the desired data rate.
Note
If the drive is deselected before the enhanced-command bit is reset to
1, the drive does not perform the command.
Command encoding of data rate select (1,0) signals.
Enhanced Commands
DATA RATE SELECT 1 0 |
RESULTING COMMAND |
0 0
|
Eject Media |
0 1
|
Lock Drive |
1 0
|
Unlock Drive |
1 1
|
Reserved |
Diskette Drive
Registers
REGISTER |
R/W |
ADDRESS |
Status register A |
R |
03F0 |
Status register |
R |
03F1 |
Digital output |
R/W |
03F2 |
Drive status |
R |
03F3 |
Controller status |
R |
03F4 |
Precomp select |
W |
03F4 |
Command/data |
R/W |
03F5 |
Digital input |
R |
03F7 |
Data rate control |
W |
03F7 |
9595
Planar
9595
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